US2523660A - Electromagnetic camera shutter synchronizer - Google Patents
Electromagnetic camera shutter synchronizer Download PDFInfo
- Publication number
- US2523660A US2523660A US596025A US59602545A US2523660A US 2523660 A US2523660 A US 2523660A US 596025 A US596025 A US 596025A US 59602545 A US59602545 A US 59602545A US 2523660 A US2523660 A US 2523660A
- Authority
- US
- United States
- Prior art keywords
- shutter
- plunger
- electromagnet
- lever
- operating
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B9/00—Exposure-making shutters; Diaphragms
- G03B9/70—Exposure-making shutters; Diaphragms with flash-synchronising contacts
Definitions
- This invention relates to a shutter operating device and its purpose is to provide improved apparatus for synchronizing the operation of the shutter of a photographic camera with the operation of a ashlight bulb employed therewith, s0 that the mechanism of the shutter will coincide with the greatest intensity of light produced by the nash of the bulb, and capable of use, also, for effecting remote actuation of a camera shutter.
- a further object of the invention is to provide a shutter operating device, for synchronizing the operation of the shutter of a cam-l erawith the actuation or" a flashlight bulb, in' which improved means vare provided for varying the range of movement of the operating mecha'- nism of the device by adjusting both the point at which the movement starts and the point at which it ends through the operation of adjusting members which are accessible and operable while the device is completely assembled.
- a further object is to provide a shutter operating device comprising improved leverr mechanism for imparting the motion of the device to the trip lever of the camera shutter, whereby the device may be located in proximity to the trip lever and, may be operated with a minimum expenditure of energy.
- a further object of the invention is to provide a shutter operating device having lever mechanism which is arranged to actuate the shutter and which may be readily moved. to an inoperative position when desired.
- a further object of the invention is to provide shutter operating mechanism comprising an electromagnet and a reciprocating plunger which are capable of being adjusted angularly with respect to the remaining parts of the device and which may be readily removed for purposes of replacement or repair.
- Another object is to provide a shutter operating device which may be readily assembled and disassembled. Other objects relate tor various features of construction and arrangement which will appear more fully hereinafter.
- Figure l shows a partial front elevation of the lens board and shutter of aphotographic camera having associated therewith one form of the irnproved shutter operating device of the present invention
- Fig. 2 shows a vertical axial section through the shutter operating device illustrated in Fig. l with the lever operating plunger in its retracted position;
- Fig. 3 shows a partial vertical section similar to that of Fig. 2, illustrating the plunger of the electromagnet in its actuated position and with the trip lever of the camera in its operated position;
- Fig. 4 shows a sectional View taken on the line 4-4 of Fig. 3;
- Fig. 5 shows a sectional view taken on the line 5-5 of Fig. illustrating a top plan View or the shutter operating device
- Fig. 6 is a sectional view similar to that of Fig. 2, showing a modied form of the invention
- Fig. 7 shows a sectional view taken on the line '1 -'I of Fig. 6;
- Fig. 8 is a diagrammatic View showing the circuit connections of the flashlight bulb and the electromagnet of the shutter operating device when using either form of the invention.
- Fig. l there is shown the lens board I of a photographic camera having a shutter I I which is adapted to be operated by a trip lever or trigger I2.
- This trigger may be manually operated but, when the present invention is employed, it is operated automatically, when'the circuit of the flashlight bulb is closed, through the actuation of the shutter operating device I4 which may be detachably secured to the lens board I0, in proximity to the shutter, by a supporting plate or bracket I engaged by the screws I6.
- the plate I5 has detachably secured thereto an inverted cup-shaped body member I1 which is internally threaded at its lower end for detachable engagement with the upper threaded extremity of a barrel i8.
- This barrel is threaded at its lower end for engagement by a detached cap member I9 which has a knurled portion ISe to be gripped by the fingers of the operator.
- An electromagnet or solenoid is mounted in the barrel I8 around a hollow spool 2l formed of non-magnetic material, such as brass, and having radial end flanges 2 Ia which t within the barrel.
- the terminals of the winding of this solenoid are led through an insulating block 23, mounted in an opening at one side of the barrel, to a pair of terminal posts 24 which are adapted to permit the solenoid to be plugged into the circuit of the ashlight bulb in parallel therewith.
- a cylindrical plunger 25 of magnetizable Inaterial is reciprocably mounted within the lower end of the electromagnet 20 and it is provided at its lower end with an outwardly extending annular flange 25a which underlies the lower end of the electromagnet and which is of lesser diameter than the inner chamber of the cap member I9 by which it is enclosed.
- This plunger has an axially located stern 25ID in threaded engagement therewith which projects below the body portion of the plunger where it is engaged by a lock nut 25e.
- the upper limit of movement of the plunger is determined by the engagement of the ange 25a with the lower end oi the electromagnet and the point where this occurs may be properly adjusted when the apparatus is assembled by releasing the lock nut and moving the body portion of the plunger on its stem.
- the downward movement of the plunger is lime ited by the engagement of the lower end of the stem 25b with a stop screw 26 which threadedly engages the lower end of the cap member I8 and which is held in adjusted position by a lock nut 21.
- the stop screw 26 may be adjusted to deter mine the lower position which the plunger assumes in response to the spring actuated shutter lever when the electromagnet 20 is deenergized.
- the stem 25b of the plunger 25 extends upwardly through the electromagnet and through an adjusting sleeve 28 of magnetizable material which is adjustably mounted within the hollow core 2I.
- the sleeve 28 is of substantial thickness at its lower end, as shown at 28a, and this part is provided with a bore 28b of reduced diameter through which the stem 25b passes.
- the adjusting sleeve 28 is provided lwith a beveled surface 28C, in the form of a truncated cone, which is adapted to surround the corresponding inclined annular surface 25d formed upon the upper end of the body portion of the plunger 25 when the plunger 25 is moved upwardly.
- the stem 25b of the plunger is adapted to actuate the trip lever or trigger I2 of the shutter mechanism through the agency of the lever mechanism shown particularly in Figs. 2, 3 and 5.
- This lever mechanism is mounted upon a head 30 which is positioned upon the upper end of the body member IT and which has an upwardly extending lug 38a which is embraced by and pivotally connected to the free end ci the arms 3ia of a bifurcated or double armed lever 3l through the agency of a pivot pin 32, as shown particularly in Fig. 5.
- lever arms IIIn Adjacent their other ends these lever arms IIIn are pivotally connected by another pin 33 with a second lever 35 of channel-shaped cross section which is mounted between them and pivoted at an intermediate point, by means oi the pin 36, upon a lug 36h which extends upwardly from the head 30 and terminates between the side walls of the lever 35.
- the body portion of the lever 3l is extended beyond the pivot pin 33 as shown at 3llo and contacts on its under side with the end of the trip lever or trigger I2 by which the shutter is operated.
- the free end oi the lever 35 located on the opposite side of the pin 36 from the pin 33 extends over the upper end of the stem or rod 25b of the plunger and when this plunger moves upwardly the lever 35 is rocked about its stationary pivot 35, thereby causing the downward movement of the pivot ⁇ .pin 33 and a corresponding depression of the extension 3ib of the lever 3i, thereby operating the trigger I2 to actuate the shutter mechanism.
- a larger stroke of the plunger may be employed for a given movement of the actuating end of the trip lever, thus giving better adjustability at the beginning and at the end of the stroke with consequent better timing while also permitting the solenoid 20 to be designed to consume a minimum of electrical energy in order to effect the operation of the shutter.
- the lever arrangement also makes the assembly compact so that the shutter operating mechanism may be located in close proximity to the shutter.
- the head 30 is mounted to rotate on the body member ll through the agency of an attaching member 38 which extends through an aperture in the member 30 and has a ange 38EL overlying a recessed shoulder formed in the head 3G.
- This member 38 is threaded at its lower end and is engaged beneath the upper wall I1a of the hollow body member l1 by a nut 39 which is adjusted so that the head 30 is held frictionally in place but may be rotated from the position shown in the drawings when it is desired to operate the shutter of the camera without the use of the synchronizing device.
- the magnetizable adjusting sleeve 28 is mounted for vertical adjustment Within the upper part of the electromagnet 20.
- it is provided at its upper end with a laterally extending flange 28d which contacts the upper end of a coiled spring 4U seated at its lower end on the upper end 2
- This spring normally holds the adjusting sleeve in a position determined by the adjustable stop screw 4
- This adjusting screw threadedly engages the cap member 30 and passes through an arcuate slot I1b formed in the upper wall of the body member. It also engages a notch 39a in the nut 39 so that, when it is in position, the nut 39 is held against rotation.
- 1h permits angular adjustment of the head 38 on the body member
- the part of the core of the electromagnet represented by the sleeve '28 may be adjusted downwardly to a lower limit determined by the engagement of the flange 28?i with the upper end of the barrel I8.
- the plunger 25 may be caused to assume the desired lower position so that an upward movement of a predetermined amount from that position will be required to effect the initial operation of the trip lever I2 and by adjusting the sleeve 28 vertically the timing of the upward strokev of the plunger may be varied to adapt the operation ofthe shutter to the characteristics of the flashlight bulb being employed.
- the extreme upward movement of the plunger 25 is limited independently of the adjusting sleeve 28 by the engagement of theA flange 258L of the plunger with the lower end flange 2
- This plate or bracket is detachably secured by screws or the like to the body member 50 which has suspended therefrom.
- which is mounted in the upper end of a barrel 52.
- has a reduced portion 5
- a has an annular groovey 5
- the barrelr 52 has mounted thereinan electromagnet orsolenoid 55 wound on a spool 56, hav-A ing flanges 56a which fit within the barrel.
- the circuitv connections may be lo of magnetizable material, which is mounted to4 reciprocate within the electromagnet 55.
- This plunger has a stem 63EL in threaded engagement therewith and this stem projects below the lower end of the plunger 63 where it is engaged by a lock nut 64.
- the plunger When the plunger moves to its lower or retracted position in response to the return movement of the spring actuated shutter lever 46, the lower end of the stem 63a seats upon the upper end of the stop screw 6
- the body portion of the plunger is provided with an ari-l nular flange 63b at its lower end which extends outwardly within the cap member 6D below the lower end of the electromagnet.
- the plunger which is adapted to actuate the trip lever 46 of the shutter mechanism, as hereinafter described, is limited in its upward movement by the engagement of the annular flange (i3b on the lower end of the body of the plunger with the lower end of the electromagnet and the point where this occurs may be varied by releasing the lock nut 64 and adjusting the position of the plunger on its stem.
- the plunger moves upwardly in response to the energization of the electromagnet, its tapered upper end 63c enters the tapered recess 5Ic formed in the lower end of the block 5
- a head 65 is rotatably mounted upon the body 5U, being provided with an annular flange 65d which extends downwardly over the upper cylindrical extension 5
- a connecting member 66 extends through thek head This screw 6
- the stem E3a extends upwardly through the block 5l, the body member 5U, and the connecting member 66 and its upper end is adapted to engage and operate the lever mechanism by which the trip lever 46 is actuated.
- This lever mechanism comprises a lever 61 which is bifurcated to form arms 61a pivoted at their free ends on a pin 68 carried by the lug 65h which extends upwardly from the head 65.
- This lever is in turn pivoted by a pin 69 to a shorter lever I0 of channel-shaped cross section which is pivoted on a pin 'll carried by the lug 65C extending upwardly from the head 65, as in the form of lever mechanism previously described.
- the stem 63ZL actuates the free end of the lever le, which rests upon the upper end of the stem, thus depressing the pivot pin Se and causing a corresponding downward movement of the extremity Sib of the body portion of the lever 6l which overlies the end of the trip lever 46.
- the shutter may be operated simultaneously with the energization of the electromagnet which is included in the circuit with the ashlight bulb.
- the starting point oi the actuating movement of the plunger 63 may be regulated as desired and the upper limit of movement of the plunger is adjusted, as described above, by varying the position of the plunger 63 on its stem 63a.
- FIG. S there is shown diagrammatically the electrical connections of the flashlight bulb and the solenoid of the operating device.
- a battery 'I5 is connected in parallel with the flashlight bulb 'I6 and the solenoid 2E! or 55 through an operating switch 'l1 which is usually mounted on the battery case.
- a device for operating in timed relation a ashlight and a photographic shutter having an actuating member comprising an electromagnet adapted to be connected in the circuit of said ashlight, a plunger arranged to be actuated when said electromagnet is energized to operate said actuating member, an adjustable member free of said plunger for controlling the movement of said plunger in one direction, an adjustable part for determining the normal position of said adjust able member, and resilient means for holding said adjustable member in engagement with said adjustable part.
- a device for operating in timed relation a flashlight and a photographic shutter having an actuating member comprising an electromagnet adapted to be connected in the circuit of said flashlight, a plunger mounted to reciprocate within said electromagnet, said plunger occupying normally a retracted position and being movable to an actuated position to operate said actuating member when said electr-@magnet is energized, and a magnetizable member adjustable within said electromagnet to control the movement of said plunger and thereby determine said actuated position.
- a device for operating in timed relation a flashlight and a photographic shutter having an@ actuating member comprising an electromagnet adapted to be connected in the'circuit of said iiashlight, a plunger mounted to reciprocate within said electromagnet, said plunger occupying normally a retracted position and being movable to an actuated position to operate said actuating member when said electromagnet is energized, a magnetizable member extending into said electromagnet in alignment with said plunger, an adjustable stop screw engaging said magnetizable member on the side thereof opposite said plunger, and resilient means for holding said magnetizable member in engagement with said stop screw.
- a device for operating in timed relation a flashlight and a photographic shutter having anv actuating member comprising a stationary body member, an electromagnet carried by said body member and adapted to be connected in the circuit of said flashlight, a plunger adapted to be actuated by said electromagnet when said circuit is energized, a head mounted for angular movement on said body member, and lever mechanism carried by said head and comprising a partv adapted to be moved into the path of said actuating member upon rotation of said head to a ⁇ predetermined position, said lever mechanism being arranged for actuation by said plunger.
- a device for operating in timed relation a flashlight and a photographic shutter having an actuating member comprising a plate adapted to be secured to a stationary member adjacent said shutter, a hollow body member carried by said plate, a head mounted on the upper side of said body member, means carried by said head for operating said actuating member, a barrel deitachably .secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said flashlight, and a plunger mounted to be moved upwardly by said solenoid when said circuit is energized, said plunger having a stem extending through said body membery and arranged to actuate said operating means carried by said head.
- a device for operating in timed relation a flashlight and a photographic shutter having an actuating member comprising a plate adapted to be secured to a stationary member adjacent said shutter, a holloviT body member carried by said plate, a head mounted on the upper side of said body member, means carried by said head for operating said actuating member, a barrel detachably secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said solenoid, a plunger mounted to be moved upwardly by said solenoid when said circuit is energized, said plunger having a stem extending through said body member and arranged to actuate said operating means carried by said head, and adjustable means for controlling the upward movement of said plunger.
- a device for operating in timed relation a flashlight and a photographic shutter having an actuating member comprising a plate adapted to be secured to a stationary member adjacent said shutter, a hollow body member carried by said plate, a head mounted on the upper sideof said body member, means carried by said head for operating said actuating member, a barrel detachably secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said solenoid, and a plunger adapted normally to assume a retracted position and 9 adapted to move to an actuated position when said solenoid is energized by the closing of said circuit, said plunger having a part extending through said body member to actuate said operating means carried by said head when said plunger 5 is moved to its actuated position.
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Shutters For Cameras (AREA)
Description
2 Sheets-Sheet 1 N. s. HULSTEIN ELECTROMAGNETIC CAMERA SHUTTER sYNcHRoNIzER sept. 26,1950
Filed May 26, 1945 INVENTOR /ea 5. /fub'm Sept. 26, 1950 N. s. HULsTElN 2,523,650
ELECTROMAGNETIC CAMERA SHUTTER sYNcHRoNIzER Filed May 26, 1945 2 Sheets-Sheet 2 INVENTOR.
Y? QM Patented Sept. 26, 1950 ELECTROMAGNETIC CAMERA SHUTTER SYN CHRONIZER Neal yS. Hiilstein, Denver, Colo., assigner to Heiland Research Corporation, Denver, Colo.,l a ycorporation of `Colorado Application May 26, 1945, Serial No. 596,025
7 Claims.
This invention relates to a shutter operating device and its purpose is to provide improved apparatus for synchronizing the operation of the shutter of a photographic camera with the operation of a ashlight bulb employed therewith, s0 that the mechanism of the shutter will coincide with the greatest intensity of light produced by the nash of the bulb, and capable of use, also, for effecting remote actuation of a camera shutter.
It is well known that there is a lag between the closing of an electric circuit to actuate a flashlight bulb and the instant when the maximum intensity of light produced by the iiash of the bulb occurs, and, also, that there is a lag in time between the start of the operation of the shutter mechanism of a camera and the point where the shutter has its maximum opening. The periods of lag for both the flashlight bulb and the shutter may vary with different designs and manufacturers, and to obtain the best results under` all conditions, it is desirable to provide means for adjusting the operation of the two devices so that their maximum effects will be obtained simultaneously. Shutter operatingr devices have heretofore been provided which permit some adjustment of the operation of the shutter in its relation to the actuation of the flashlight bulb but these prior devices have not been satisfactory in all respects. It is desirable, in order to render a wide variety of flashlight bulbs adaptable to use with different makes and forms of shutter mechanism, to provide an adjustmentof the point from which the movement of the shutter operating device starts when the circuitl of gf;
the flashlight bulb is energized and also an adjustment of the duration of the movement ofthe device in the shutter operating direction. The prior shutter operating devices have accomplished the first of these functions efficiently but the means which have heretofore been provided forfeliecting an adjustment of the end of the working stroke of the operating device have required the disassembly of a substantial portion of the device in order to change the relativepO- sitions of certain parts, thus necessitating delays in the operation ofthe apparatus and requiring a reassembly of the device to test the result of the adjustment. Prior devices have also been unsatisfactory in that the simple levers used to transmit motionfrom the operating device to the shutter have required too much power for their operation and have necessitated too wide a separation of the shutter and the shutter operating device. 1
The principal object of the present invention:
is to provide a shutter operating device in which improved means are provided for adjusting the p point.'r in the movement of the apparatus where the actuation of the shutter ceases, so that the limit of opening of the shutter may be varied at the will of the operator, without disassembling the device. A further object of the invention is to provide a shutter operating device, for synchronizing the operation of the shutter of a cam-l erawith the actuation or" a flashlight bulb, in' which improved means vare provided for varying the range of movement of the operating mecha'- nism of the device by adjusting both the point at which the movement starts and the point at which it ends through the operation of adjusting members which are accessible and operable while the device is completely assembled. A further object is to provide a shutter operating device comprising improved leverr mechanism for imparting the motion of the device to the trip lever of the camera shutter, whereby the device may be located in proximity to the trip lever and, may be operated with a minimum expenditure of energy. A further object of the invention is to provide a shutter operating device having lever mechanism which is arranged to actuate the shutter and which may be readily moved. to an inoperative position when desired. A further object of the invention is to provide shutter operating mechanism comprising an electromagnet and a reciprocating plunger which are capable of being adjusted angularly with respect to the remaining parts of the device and which may be readily removed for purposes of replacement or repair. Another object is to provide a shutter operating device which may be readily assembled and disassembled. Other objects relate tor various features of construction and arrangement which will appear more fully hereinafter.
The nature of the invention willr be understood from the following specication taken with the accompanying drawings in which two embodiments are illustrated.
In the drawings:
Figure l shows a partial front elevation of the lens board and shutter of aphotographic camera having associated therewith one form of the irnproved shutter operating device of the present invention;
Fig. 2 shows a vertical axial section through the shutter operating device illustrated in Fig. l with the lever operating plunger in its retracted position;
Fig. 3 shows a partial vertical section similar to that of Fig. 2, illustrating the plunger of the electromagnet in its actuated position and with the trip lever of the camera in its operated position;
Fig. 4 shows a sectional View taken on the line 4-4 of Fig. 3;
Fig. 5 shows a sectional view taken on the line 5-5 of Fig. illustrating a top plan View or the shutter operating device;
Fig. 6 is a sectional view similar to that of Fig. 2, showing a modied form of the invention;
Fig. 7 shows a sectional view taken on the line '1 -'I of Fig. 6; and
Fig. 8 is a diagrammatic View showing the circuit connections of the flashlight bulb and the electromagnet of the shutter operating device when using either form of the invention.
In Fig. l, there is shown the lens board I of a photographic camera having a shutter I I which is adapted to be operated by a trip lever or trigger I2. This trigger may be manually operated but, when the present invention is employed, it is operated automatically, when'the circuit of the flashlight bulb is closed, through the actuation of the shutter operating device I4 which may be detachably secured to the lens board I0, in proximity to the shutter, by a supporting plate or bracket I engaged by the screws I6. The plate I5 has detachably secured thereto an inverted cup-shaped body member I1 which is internally threaded at its lower end for detachable engagement with the upper threaded extremity of a barrel i8. This barrel is threaded at its lower end for engagement by a detached cap member I9 which has a knurled portion ISe to be gripped by the fingers of the operator. An electromagnet or solenoid is mounted in the barrel I8 around a hollow spool 2l formed of non-magnetic material, such as brass, and having radial end flanges 2 Ia which t within the barrel. The terminals of the winding of this solenoid are led through an insulating block 23, mounted in an opening at one side of the barrel, to a pair of terminal posts 24 which are adapted to permit the solenoid to be plugged into the circuit of the ashlight bulb in parallel therewith.
A cylindrical plunger 25 of magnetizable Inaterial is reciprocably mounted within the lower end of the electromagnet 20 and it is provided at its lower end with an outwardly extending annular flange 25a which underlies the lower end of the electromagnet and which is of lesser diameter than the inner chamber of the cap member I9 by which it is enclosed. This plunger has an axially located stern 25ID in threaded engagement therewith which projects below the body portion of the plunger where it is engaged by a lock nut 25e. The upper limit of movement of the plunger is determined by the engagement of the ange 25a with the lower end oi the electromagnet and the point where this occurs may be properly adjusted when the apparatus is assembled by releasing the lock nut and moving the body portion of the plunger on its stem.
The downward movement of the plunger is lime ited by the engagement of the lower end of the stem 25b with a stop screw 26 which threadedly engages the lower end of the cap member I8 and which is held in adjusted position by a lock nut 21. The stop screw 26 may be adjusted to deter mine the lower position which the plunger assumes in response to the spring actuated shutter lever when the electromagnet 20 is deenergized.
The stem 25b of the plunger 25 extends upwardly through the electromagnet and through an adjusting sleeve 28 of magnetizable material which is adjustably mounted within the hollow core 2I. The sleeve 28 is of substantial thickness at its lower end, as shown at 28a, and this part is provided with a bore 28b of reduced diameter through which the stem 25b passes. At its lower extremity, the adjusting sleeve 28 is provided lwith a beveled surface 28C, in the form of a truncated cone, which is adapted to surround the corresponding inclined annular surface 25d formed upon the upper end of the body portion of the plunger 25 when the plunger 25 is moved upwardly.
The stem 25b of the plunger is adapted to actuate the trip lever or trigger I2 of the shutter mechanism through the agency of the lever mechanism shown particularly in Figs. 2, 3 and 5. This lever mechanism is mounted upon a head 30 which is positioned upon the upper end of the body member IT and which has an upwardly extending lug 38a which is embraced by and pivotally connected to the free end ci the arms 3ia of a bifurcated or double armed lever 3l through the agency of a pivot pin 32, as shown particularly in Fig. 5. Adjacent their other ends these lever arms IIIn are pivotally connected by another pin 33 with a second lever 35 of channel-shaped cross section which is mounted between them and pivoted at an intermediate point, by means oi the pin 36, upon a lug 36h which extends upwardly from the head 30 and terminates between the side walls of the lever 35. The body portion of the lever 3l is extended beyond the pivot pin 33 as shown at 3llo and contacts on its under side with the end of the trip lever or trigger I2 by which the shutter is operated.
The free end oi the lever 35 located on the opposite side of the pin 36 from the pin 33 extends over the upper end of the stem or rod 25b of the plunger and when this plunger moves upwardly the lever 35 is rocked about its stationary pivot 35, thereby causing the downward movement of the pivot `.pin 33 and a corresponding depression of the extension 3ib of the lever 3i, thereby operating the trigger I2 to actuate the shutter mechanism. By means of this lever arrangement, a larger stroke of the plunger may be employed for a given movement of the actuating end of the trip lever, thus giving better adjustability at the beginning and at the end of the stroke with consequent better timing while also permitting the solenoid 20 to be designed to consume a minimum of electrical energy in order to effect the operation of the shutter. The lever arrangement also makes the assembly compact so that the shutter operating mechanism may be located in close proximity to the shutter.
The head 30 is mounted to rotate on the body member ll through the agency of an attaching member 38 which extends through an aperture in the member 30 and has a ange 38EL overlying a recessed shoulder formed in the head 3G. This member 38 is threaded at its lower end and is engaged beneath the upper wall I1a of the hollow body member l1 by a nut 39 which is adjusted so that the head 30 is held frictionally in place but may be rotated from the position shown in the drawings when it is desired to operate the shutter of the camera without the use of the synchronizing device.
In order to vary the timing of the device without any change in the magnetic force required to trip the shutter, the magnetizable adjusting sleeve 28 is mounted for vertical adjustment Within the upper part of the electromagnet 20. For this purpose, it is provided at its upper end with a laterally extending flange 28d which contacts the upper end of a coiled spring 4U seated at its lower end on the upper end 2 |a of the spool 2`I. This spring normally holds the adjusting sleeve in a position determined by the adjustable stop screw 4| which engages the upper side of the flange 28d and which may be manipulated when the device is fully assembled, to vary the position of the sleeve 28, thus allowing the oper*- ator to observe quickly the effect of any adjustment. This adjusting screw threadedly engages the cap member 30 and passes through an arcuate slot I1b formed in the upper wall of the body member. It also engages a notch 39a in the nut 39 so that, when it is in position, the nut 39 is held against rotation. The slot |1h permits angular adjustment of the head 38 on the body member |1 when it is desired to move the lever mechanism out of the path of movement of the trip lever I2. By this adjustment, the part of the core of the electromagnet represented by the sleeve '28 may be adjusted downwardly to a lower limit determined by the engagement of the flange 28?i with the upper end of the barrel I8. Since the upper limit of movement of the plunger is determined by the engagement of the flange 25e with the electromagnet, it will be apparent that the gap between the adjacent tapered ends of the parts 25 and 28 must be sufiicient to allow for the maximum downward adjustment of the sleeve 28.
With this arrangement of the construction shown in Figs. 1 to 5, inclusive, it will be apparent that a substantial range of adjustment of the shutter operating device may be obtained in order to vary the point at which the operating stroke of the plunger 25 begins and also to vary the timingkbrought about by adjusting the position of the sleeve 28, which makes it possible not only to vary the period of operation of the plunger before the trip lever of the shutter mechanism is actuated but also the duration of that actuation by the movement of the plunger. By adjusting the screw 26, the plunger 25 may be caused to assume the desired lower position so that an upward movement of a predetermined amount from that position will be required to effect the initial operation of the trip lever I2 and by adjusting the sleeve 28 vertically the timing of the upward strokev of the plunger may be varied to adapt the operation ofthe shutter to the characteristics of the flashlight bulb being employed. The extreme upward movement of the plunger 25 is limited independently of the adjusting sleeve 28 by the engagement of theA flange 258L of the plunger with the lower end flange 2|a of the spool 2| of the electromagnet.
Inl Fig. 6 of the drawings, there is shown the adaptation of the improved lever mechanism to use with a form of shutter operating device which has heretofore been employed.v In this modified form of the invention, the lens board 45 of the camera has located in proximity there--AV to the trip lever 46 of the camera shutter and the shutter operating device 41 is detachably se.-
cured to a plate or bracket 48 secured by screwsA 49 on the lens board. This plate or bracket is detachably secured by screws or the like to the body member 50 which has suspended therefrom. of cylindrical formk a magnetizable block 5| which is mounted in the upper end of a barrel 52. The block 5| has a reduced portion 5|a which extends upwardly and ts within a cylindricalv recess 5||2L formed in the lower end of the body member 50. The part 5|a has an annular groovey 5|b engaged by the end of a screw 53 which is. mounted in the sideof the member 50 so thatv the block 5|and the barrel 52 mounted thereon are capable of being rotated bodily with respect to the body member 50 and bracket 48 and of being readily detached if it be desiredV to changeV any part.
The barrelr 52 has mounted thereinan electromagnet orsolenoid 55 wound on a spool 56, hav-A ing flanges 56a which fit within the barrel. Thevv terminals of the winding of this electromagnet,
are brought out through an insulating block 51, mounted on the member 5 l, to two terminal posts 58 which are adapted to be plugged into the circuit of the flashlight bulb so that when this circuit is' closed and the bulb actuated, the electromagnet is at the same time energized to effect the operation of the shutter of the camera. By turning` the block 5| with respect to the body member 5U, the circuitv connections may be lo of magnetizable material, which is mounted to4 reciprocate within the electromagnet 55. This plunger has a stem 63EL in threaded engagement therewith and this stem projects below the lower end of the plunger 63 where it is engaged by a lock nut 64. When the plunger moves to its lower or retracted position in response to the return movement of the spring actuated shutter lever 46, the lower end of the stem 63a seats upon the upper end of the stop screw 6|. The body portion of the plunger is provided with an ari-l nular flange 63b at its lower end which extends outwardly within the cap member 6D below the lower end of the electromagnet. The plunger, which is adapted to actuate the trip lever 46 of the shutter mechanism, as hereinafter described, is limited in its upward movement by the engagement of the annular flange (i3b on the lower end of the body of the plunger with the lower end of the electromagnet and the point where this occurs may be varied by releasing the lock nut 64 and adjusting the position of the plunger on its stem. When kthe plunger moves upwardly in response to the energization of the electromagnet, its tapered upper end 63c enters the tapered recess 5Ic formed in the lower end of the block 5|, thus tending to increase the attractive force exerted by the electromagnet on the plunger.
A head 65 is rotatably mounted upon the body 5U, being provided with an annular flange 65d which extends downwardly over the upper cylindrical extension 5|]b of the body member 50. A connecting member 66 extends through thek head This screw 6| serves as a stop for limitingl 7vv G5 and threadedly engages an internally threaded recess formed in the upper end of the member 59, thus holding the member 65 in position while allowing it to be rotated about its vertical axis.
The stem E3a extends upwardly through the block 5l, the body member 5U, and the connecting member 66 and its upper end is adapted to engage and operate the lever mechanism by which the trip lever 46 is actuated. This lever mechanism comprises a lever 61 which is bifurcated to form arms 61a pivoted at their free ends on a pin 68 carried by the lug 65h which extends upwardly from the head 65. This lever is in turn pivoted by a pin 69 to a shorter lever I0 of channel-shaped cross section which is pivoted on a pin 'll carried by the lug 65C extending upwardly from the head 65, as in the form of lever mechanism previously described. When the electromagnet 55 is energized to move the Yplunger 63 upwardly, from the normal position shown in Fig. 6, the stem 63ZL actuates the free end of the lever le, which rests upon the upper end of the stem, thus depressing the pivot pin Se and causing a corresponding downward movement of the extremity Sib of the body portion of the lever 6l which overlies the end of the trip lever 46. In this way, the shutter may be operated simultaneously with the energization of the electromagnet which is included in the circuit with the ashlight bulb. By adjusting the position of the stop screw 6l, the starting point oi the actuating movement of the plunger 63 may be regulated as desired and the upper limit of movement of the plunger is adjusted, as described above, by varying the position of the plunger 63 on its stem 63a.
In Fig. S there is shown diagrammatically the electrical connections of the flashlight bulb and the solenoid of the operating device. A battery 'I5 is connected in parallel with the flashlight bulb 'I6 and the solenoid 2E! or 55 through an operating switch 'l1 which is usually mounted on the battery case.
Although certain forms of the invention have been shown and described by way of illustration, it will be understood that it may be constructed in various other embodiments which come within the scope of the appended claims.
l2, claim:
l. A device for operating in timed relation a ashlight and a photographic shutter having an actuating member, comprising an electromagnet adapted to be connected in the circuit of said ashlight, a plunger arranged to be actuated when said electromagnet is energized to operate said actuating member, an adjustable member free of said plunger for controlling the movement of said plunger in one direction, an adjustable part for determining the normal position of said adjust able member, and resilient means for holding said adjustable member in engagement with said adjustable part.
2. A device for operating in timed relation a flashlight and a photographic shutter having an actuating member, comprising an electromagnet adapted to be connected in the circuit of said flashlight, a plunger mounted to reciprocate within said electromagnet, said plunger occupying normally a retracted position and being movable to an actuated position to operate said actuating member when said electr-@magnet is energized, and a magnetizable member adjustable within said electromagnet to control the movement of said plunger and thereby determine said actuated position.
-3. A device for operating in timed relation a flashlight and a photographic shutter having an@ actuating member, comprising an electromagnet adapted to be connected in the'circuit of said iiashlight, a plunger mounted to reciprocate within said electromagnet, said plunger occupying normally a retracted position and being movable to an actuated position to operate said actuating member when said electromagnet is energized, a magnetizable member extending into said electromagnet in alignment with said plunger, an adjustable stop screw engaging said magnetizable member on the side thereof opposite said plunger, and resilient means for holding said magnetizable member in engagement with said stop screw.
4. A device for operating in timed relation a flashlight and a photographic shutter having anv actuating member, comprising a stationary body member, an electromagnet carried by said body member and adapted to be connected in the circuit of said flashlight, a plunger adapted to be actuated by said electromagnet when said circuit is energized, a head mounted for angular movement on said body member, and lever mechanism carried by said head and comprising a partv adapted to be moved into the path of said actuating member upon rotation of said head to a` predetermined position, said lever mechanism being arranged for actuation by said plunger.
5. A device for operating in timed relation a flashlight and a photographic shutter having an actuating member, comprising a plate adapted to be secured to a stationary member adjacent said shutter, a hollow body member carried by said plate, a head mounted on the upper side of said body member, means carried by said head for operating said actuating member, a barrel deitachably .secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said flashlight, and a plunger mounted to be moved upwardly by said solenoid when said circuit is energized, said plunger having a stem extending through said body membery and arranged to actuate said operating means carried by said head.
6. A device for operating in timed relation a flashlight and a photographic shutter having an actuating member, comprising a plate adapted to be secured to a stationary member adjacent said shutter, a holloviT body member carried by said plate, a head mounted on the upper side of said body member, means carried by said head for operating said actuating member, a barrel detachably secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said solenoid, a plunger mounted to be moved upwardly by said solenoid when said circuit is energized, said plunger having a stem extending through said body member and arranged to actuate said operating means carried by said head, and adjustable means for controlling the upward movement of said plunger.
'7. A device for operating in timed relation a flashlight and a photographic shutter having an actuating member, comprising a plate adapted to be secured to a stationary member adjacent said shutter, a hollow body member carried by said plate, a head mounted on the upper sideof said body member, means carried by said head for operating said actuating member, a barrel detachably secured to the under side of said body member, a solenoid mounted in said barrel and having means for forming a connection with the circuit of said solenoid, and a plunger adapted normally to assume a retracted position and 9 adapted to move to an actuated position when said solenoid is energized by the closing of said circuit, said plunger having a part extending through said body member to actuate said operating means carried by said head when said plunger 5 is moved to its actuated position.
NEAL S. HULSTEIN.
REFERENCES CITED The following references are of record in the le of this patent:
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US596025A US2523660A (en) | 1945-05-26 | 1945-05-26 | Electromagnetic camera shutter synchronizer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US596025A US2523660A (en) | 1945-05-26 | 1945-05-26 | Electromagnetic camera shutter synchronizer |
Publications (1)
Publication Number | Publication Date |
---|---|
US2523660A true US2523660A (en) | 1950-09-26 |
Family
ID=24385691
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US596025A Expired - Lifetime US2523660A (en) | 1945-05-26 | 1945-05-26 | Electromagnetic camera shutter synchronizer |
Country Status (1)
Country | Link |
---|---|
US (1) | US2523660A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2614467A (en) * | 1948-05-12 | 1952-10-21 | Heiland Res Corp | Flash synchronizer for cameras |
US2703516A (en) * | 1951-06-04 | 1955-03-08 | Honeywell Regulator Co | Synchronizer for camera shutters, including adjustable solenoid linkage |
US2852948A (en) * | 1952-11-14 | 1958-09-23 | American Brake Shoe Co | Solenoid operated valve |
US2905872A (en) * | 1956-03-14 | 1959-09-22 | Ite Circuit Breaker Ltd | Electromagnet with special force displacement characteristics |
US3630136A (en) * | 1968-06-19 | 1971-12-28 | Hattori Tokeiten Kk | Exposure time adjusting device for electric shutters |
US3806850A (en) * | 1971-12-29 | 1974-04-23 | Stearns Electric Corp | High wattage contactor |
US3868712A (en) * | 1973-04-11 | 1975-02-25 | Polaroid Corp | Pneumatically reactive exposure control system |
US4421025A (en) * | 1981-12-21 | 1983-12-20 | International Business Machines Corporation | Spring mounted torsionally rigid print hammer mechanism |
US5138291A (en) * | 1991-04-10 | 1992-08-11 | Ail Corporation | Proportional solenoid actuator |
US5362209A (en) * | 1991-04-10 | 1994-11-08 | Ail Corporation | Proportional solenoid actuator and pump system including same |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2161355A (en) * | 1937-04-13 | 1939-06-06 | Jacobson Irving | Shutter and flash synchronizer for cameras |
US2176573A (en) * | 1934-09-15 | 1939-10-17 | Hershberg Samuel | System of photography |
US2176972A (en) * | 1937-06-19 | 1939-10-24 | Sidney O Lindahl | Photo flash synchronizer |
US2271340A (en) * | 1939-06-19 | 1942-01-27 | Folmer Graflex Corp | Shutter and flash synchronizer for cameras |
US2293477A (en) * | 1940-07-19 | 1942-08-18 | Folmer Graflex Corp | Photographic flash synchronization equipment |
FR880955A (en) * | 1941-03-23 | 1943-04-12 | Zeiss Ikon Ag | Remote electromagnetic trigger in combination with flash lamp |
US2324075A (en) * | 1941-01-31 | 1943-07-13 | Eastman Kodak Co | Flashlight synchronizing apparatus |
US2333776A (en) * | 1941-01-31 | 1943-11-09 | Eastman Kodak Co | Shutter operating device |
-
1945
- 1945-05-26 US US596025A patent/US2523660A/en not_active Expired - Lifetime
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2176573A (en) * | 1934-09-15 | 1939-10-17 | Hershberg Samuel | System of photography |
US2161355A (en) * | 1937-04-13 | 1939-06-06 | Jacobson Irving | Shutter and flash synchronizer for cameras |
US2176972A (en) * | 1937-06-19 | 1939-10-24 | Sidney O Lindahl | Photo flash synchronizer |
US2271340A (en) * | 1939-06-19 | 1942-01-27 | Folmer Graflex Corp | Shutter and flash synchronizer for cameras |
US2293477A (en) * | 1940-07-19 | 1942-08-18 | Folmer Graflex Corp | Photographic flash synchronization equipment |
US2324075A (en) * | 1941-01-31 | 1943-07-13 | Eastman Kodak Co | Flashlight synchronizing apparatus |
US2333776A (en) * | 1941-01-31 | 1943-11-09 | Eastman Kodak Co | Shutter operating device |
FR880955A (en) * | 1941-03-23 | 1943-04-12 | Zeiss Ikon Ag | Remote electromagnetic trigger in combination with flash lamp |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2614467A (en) * | 1948-05-12 | 1952-10-21 | Heiland Res Corp | Flash synchronizer for cameras |
US2703516A (en) * | 1951-06-04 | 1955-03-08 | Honeywell Regulator Co | Synchronizer for camera shutters, including adjustable solenoid linkage |
US2852948A (en) * | 1952-11-14 | 1958-09-23 | American Brake Shoe Co | Solenoid operated valve |
US2905872A (en) * | 1956-03-14 | 1959-09-22 | Ite Circuit Breaker Ltd | Electromagnet with special force displacement characteristics |
US3630136A (en) * | 1968-06-19 | 1971-12-28 | Hattori Tokeiten Kk | Exposure time adjusting device for electric shutters |
US3806850A (en) * | 1971-12-29 | 1974-04-23 | Stearns Electric Corp | High wattage contactor |
US3868712A (en) * | 1973-04-11 | 1975-02-25 | Polaroid Corp | Pneumatically reactive exposure control system |
US4421025A (en) * | 1981-12-21 | 1983-12-20 | International Business Machines Corporation | Spring mounted torsionally rigid print hammer mechanism |
US5138291A (en) * | 1991-04-10 | 1992-08-11 | Ail Corporation | Proportional solenoid actuator |
US5362209A (en) * | 1991-04-10 | 1994-11-08 | Ail Corporation | Proportional solenoid actuator and pump system including same |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2523660A (en) | Electromagnetic camera shutter synchronizer | |
US2978970A (en) | Photographic shutter construction | |
US2350938A (en) | Solenoid | |
US2161355A (en) | Shutter and flash synchronizer for cameras | |
US2702189A (en) | Sheet pack inspection means | |
US1768949A (en) | Circuit-controlling means | |
US2263051A (en) | Signal device | |
US2434070A (en) | Flasher | |
GB1037313A (en) | Improvements in or relating to electrical signal-generating devices | |
US2238115A (en) | Flashlight operating device | |
US1503272A (en) | Coil-winding machine | |
US2480604A (en) | Built-in flashlight and shutter synchronizer with adjustable delay means | |
US2344645A (en) | Photographic shutter operating mechanism | |
US2293477A (en) | Photographic flash synchronization equipment | |
US2441137A (en) | Automatically locking relay | |
US1986398A (en) | Camera control | |
JPS589931B2 (en) | rosyutseigiyosouchi | |
US2263046A (en) | Synchronizing apparatus | |
US2350258A (en) | Photoflash synchronizer unit and equipment | |
US2292894A (en) | Photoflash synchronizer | |
US2016834A (en) | Photoflash device | |
US1418748A (en) | And john dudley | |
US2590829A (en) | Curtain shutter camera with flash synchronizer attachment | |
US1749566A (en) | Relay | |
US3526180A (en) | Photographic camera with interchangeable shutter |